Magnetic drive engine

ABSTRACT

By integrating the mechanics and the electromagnetism needed to push and pull the magnets on the pistons. The plug assembly is a staging area, for the coils and rods (mediums), to initiate the changing of polarity. Witch is controlled by a computer, for top performance.

CROSS-REFERENCE

Automotive Industry, Internal-combustion engine and Magnets.

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT

“Not Applicable”

REFERENCE TO SEQUENCE LISTING, A TABLE, OR A COMPUTER PROGRAM LISTING COMPACT DISC APPENDIX

“Not Applicable”

BACKGROUND OF THE INVENTION

As a mechanic, in the automotive industry. I've experienced the use of several kinds of magnetic components, along with a variety of sensors and computer controlled applications.

As a machinist, in the aerospace industry. I've worked with various types of material and their compounds in machining and tooling.

BRIEF SUMMARY OF THE INVENTION

Using the actuator, to engage the plug assembly and locking it into place. Creates magnetic moment by switching polarity, from positive to negative and back again. Having sensors on the crankshaft, sending signals to a computer and relaying that information to a power source (a magneto), for computer controlled applications. This gives the direction and magnitude of a magnetic force.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

Cover sheet, front page. Block & Head (front exposed view) One inch magnet, placed upon each piston, with the positive side up. By switching the polarity (to the magnets on the plug assembly), from positive to negative and back again. Making this a two cycle engine.

FIG. 1A—Keyway for coil & rod (medium), Top view. Copper coil is for allowing current (voltage) to pass through it. And the rod is what gets magnetized.

FIG. 1B—Plastic sleeve & rod (medium), inserted from magnet side of plug. Rod should be flush with magnet, and need to bend the other end to ensure that it is secure.

FIG. 1C—Coil & rod (medium), with plastic sleeve on rod. Showing (+) & (−) rods.

FIG. 1D—Plug (top view). (a) aligning hole for actuator (b) keyway holes for coils.

FIG. 1E—Plug assembly (exposed view). (a) plug (b) spring (c) magnet (d) coil & rod (medium), (1) paramagnetic medium (+) or (2) ferromagnetic medium (+). The coil & diamagnetic medium (−), are not shown.

FIG. 2A—Head & Block (front exposed view). Head assembly (a) head (b) plug assembly (c) coil wire (+) connections (d) actuator (e) actuator wire connection (f) fastener. Wires not shown, coil & diamagnetic medium (−), are not shown. Block assembly (partial view), (g) block (h) cylinder (i) piston with 1″ thick magnet, (+) side up (j) piston pin.

FIG. 3A—Head assembly (top view). (a) head (partial view-one side) (b) wires to actuators (c) wires to coils (d) fasteners (e) plug assembly (top view) showing wire connections to coils (*) holes for mounting to cylinder block.

FIG. 4A—Cylinder block (top view). (a) block (partial view-one side) (b) cylinders (c) ambient airways for reducing vacuum and compression (*) threaded holes for mounting the heads.

DETAILED DESCRIPTION OF THE INVENTION

Replacement of the internal-combustion engine, in the automotive industry. By molding the 90° V-type or Inline type cylinder block, pistons, piston pins, heads, fasteners, plugs and the oil pan of a carburized plastics. It's more durable and will reduce machining, weight, friction and metallic attraction.

Using the existing 12 voltage system. Magnets, sensors, computers, actuators, magnetos and converters are used to operate and control the applications, as necessary for top performance.

By having a fixed permanent 1″ thick magnet, placed upon each piston, with the (+) positive side up. (FIG. 2A) Magnetic drive is a two cycle engine. By switching the polarity from (+) positive to (−) negative, to the magnets in the heads. (0004) Having the ignition wired through a computer, to the actuators in the head. When the ignition key is turned to the ON position. (FIG. 3A) Electrical current activates the system with the actuators. Pushing downwards on the plug assembly, locking them into place.

(COVER SHEET) When the pistons reach the top of their stroke. Switching the polarity to the magnet in the head, to (+) positive. Will cause the two magnets to push away from each other. When the pistons reach the bottom of their stroke, switching back to (−) negative, would allow the two magnets to draw together. Using magnetic force (moment) to propel a vehicle, by magnetic induction to the magnets in the heads, by increasing the voltage to the coil and rod.

When the ignition key is turned to the ACCessory or OFF position. (FIG. 1A through 1E) The actuators would release the plug assembly, and the spring would push upwards, causing the engine to stop the rotation.

Roller bearings should be used on the crankshaft and an oil bath, instead of an oil pump. This would reduce the wear and maintenance. (FIG. 4A) Also, there is the need to reduce the vacuum and compression in the cylinders. This is achieved by having ambient airways, located at the top of the cylinder block, to join the cylinders together. This allows the ambient air, above and below the pistons, to move freely within the sealed unit. 

1. I claim the design and employment of the electromagnetic field and it's applications, and in the ability and reliability to successfully operate the Magnetic drive engine, and it's introduction into the automotive industry. 